Sustainable Biomass-Derived Photothermal Material for Solar-Driven Seawater Desalination and Wastewater Treatment

The global freshwater scarcity crisis demands sustainable solutions aligned with circular economy principles. Solar-driven steam generation (SSG) has emerged as a promising approach to obtain freshwater from seawater or wastewater using solar energy. However, its widespread application relies on the development of energy-efficient, eco-friendly, and high-performance photothermal conversion materials. Herein, we present a sustainable strategy for converting autumn-fallen plane tree leaves into a photothermal material (AC-800) via KOH activation at 800 °C. AC-800 exhibits 91% broadband absorption (250–2500 nm). A light-absorbing layer fabricated by vacuum filtration was used for SSG tests. Under 1 sun irradiation, AC-800 achieves an evaporation rate of 1.5441 kg·m−2·h−1 with 87.1% solar-to-vapor efficiency and a surface temperature of 48.3 °C. Ten repetitive cycles of experiments using AC-800 has demonstrated the cycling stability of SSG. Desalinated water meets World Health Organization (WHO) drinking water standards, and organic dye removal from wastewater in distilled water reaches ~100%. This low-cost, eco-friendly strategy advances sustainable SSG, with potential in seawater desalination and wastewater treatment to support circular economy objectives.